Monday, June 29, 2026

AI ROI Metrics are Coming, Even if They are Essentially "Soft" Measures of Impact

We might as well be honest and predict that enterprises are going to develop all sorts of metrics that purportedly show the positive impact of their artificial intelligence investments, but that the metrics will quite probably be proxies that measure all sorts of things other than direct AI impact.


Still, some common metrics are a starting point:

  • Cost per unit of output — Does AI reduce the labor or compute cost to produce a document, resolve a ticket, process a claim, underwrite a loan?

  • Throughput / cycle time — How many units processed per hour, or how much time shaved off a workflow (e.g., code review, contract drafting, customer onboarding)?

  • Error rates and rework costs — Does AI reduce defect rates, compliance exceptions, or manual correction loops?

  • Headcount avoidance — the ability to scale output without proportional headcount growth. Often measured as "FTE equivalents automated."


Revenue-side metrics are less common, but might include:

  • Conversion lift — Does AI-personalized outreach or recommendation improve sales conversion rates?

  • Revenue per sales rep — If AI handles pipeline qualification or proposal drafting, does rep productivity improve?

  • Customer retention / churn reduction — Does AI-assisted support or proactive intervention improve net revenue retention?

  • Time-to-market — Does AI-accelerated R&D or software development compress product cycles in ways that generate earlier revenue?


Other operational outcomes also sometimes are quantified:

  • Accuracy or precision rates on specific tasks (e.g., document classification, anomaly detection in fraud)

  • Audit findings or compliance exceptions reduced

  • Model risk KPIs — false positive/negative rates in detection systems

  • Employee time recaptured — hours per week freed from low-value tasks, redirected to higher-value work

  • Employee satisfaction / retention — particularly in roles prone to burnout from repetitive work

  • Decision quality — harder to measure, but some firms track downstream outcomes of AI-assisted decisions against historical baselines


As rational as all that sounds, the metrics are “soft.” The attribution problem is severe, as AI is almost never the sole variable changing in a deployment. 


AI might be deployed while other changes also are occurring:

  • Process redesign — Most AI deployments force workflow reengineering. Efficiency gains may be 60% process change and 40% AI

  • Training and change management — The same tool deployed with weak adoption programs vs. strong ones produces dramatically different outcomes

  • Data quality improvements — Organizations often clean and structure data as a precondition to AI deployment; that alone drives gains

  • Personnel changes — New hires, role restructuring, or management changes co-occur with AI rollouts

  • Macroeconomic or market tailwinds — Revenue gains during an AI deployment may reflect market growth, not AI impact.

  • Hawthorne effects — Measuring a team's performance changes behavior regardless of the tool.


The point is that it can be almost impossible to isolate the impact of AI cleanly. So most enterprise AI ROI figures are really "ROI of the initiative that included AI," not AI's marginal contribution.


The more interesting question might be "which specific processes have changed in ways we can measure, and do we understand why?"


Skeptics are correct to argue that attributing success purely to AI is often an oversimplification. But enterprises will have to try and do so, as investors will demand such “proof.”


So firms will supply such “proof” as best they can, even if the outcomes are not, strictly speaking, solely because of AI use. 


And that is not an unusual case. 


Research highlights that AI’s impact is heavily moderated by "complementary assets.” In other words, a firm’s  organizational structure, existing data quality and worker skill levels often do more to determine the outcome than the AI model itself.


Study Focus

Key Finding Regarding Attribution

Source

Productivity Paradox

AI adoption does not guarantee boosts; results are contingent on organizational structure and worker attributes.

Cho et al. (2026)

Social Penalty/Bias

Using AI for assistance causes observers to attribute success to the tool rather than the person, leading to negative competence assessments.

Reif (2025)

Supply Chain/Bias

In complex systems, responsibility is fragmented across vendors/platforms, making it nearly impossible to attribute specific outcomes to one source.

Sharma et al. (2026)

Task-based Impact

AI improves performance within its "capability frontier" but degrades it outside that range; attributing net gains requires granular task-level data.

Brynjolfsson et al. (2023)


The difficulty in quantifying the immediate return on investment for new technologies is a recurring theme in economic history.


During the 1970s and 1980s, despite massive corporate investment in information and communications technology, overall productivity growth in many industrialized nations remained stagnant. This led economists to question whether computers were truly providing the expected value.


Eventually, results were observed, but:

  • Results lagged deployment: it took decades for firms to fully "reimagine" their organizational structures, business models, and workflows to leverage the new technology effective

  • Value was indirect: better management, more efficient coordination or improved service quality, but correlation, not causation, remains a question. 


The measurable financial benefits of a transformative technology often became clear only after business processes were redesigned.


Technology

Scope of Impact

Key Findings

Source

ICT / General IT

U.S. Economy (1995–2000)

ICT accounted for 56% of labor productivity growth; added 1.18 percentage points to GDP growth.

Oliner & Sichel (2000)

Emerging Tech (AI/ML)

U.S. Public Firms (2009–2019)

Over a three-year period, “neither the mean nor the median abnormal ROE (expected performance) reaches statistical significance in the post-implementation period.” “The mean abnormal inventory turnover is −1.06, which is not significantly different from zero.” “Overall, our results…indicate no significant difference in performance between sample and control firms during the implementation period of emerging digital technologies.”

Li et al. (2024)

Internet / ICT

SME Growth (Global)

Web-savvy SMEs grew more than twice as fast as those with minimal web presence.

McKinsey (2011)


Still, in the meantime, we will see all sorts of metrics “demonstrating” AI impact. Enterprises making the investments have no choice but to try to do so, even if those metrics are “soft.”


Friday, June 26, 2026

We Used to "Google Ourselves," but Now We Will Want to Know Whether We are in the Weights

It was inevitable: perhaps we used to "Google ourselves." Now, with language models doing the heavy lifting, we want to know whether we are In the Weights

The “weights” are the numerical parameters that shape an AI model’s training and output, so the website tries to measure how well “a model includes a subject in its inference operations. 

Here's an example from website In The Weights



Thursday, June 25, 2026

Management and Leadership are Two Different Things



There is a difference between "leadership" and "management." Most of us work for managers, most of the time. What we often want are leaders, even if some elements of both arguably are needed some of the time. 


Leadership might be said to be about influencing people, while management  might be said to be about control and creating predictable results.

source: Researchgate


Not all managers exercise leadership. Sometimes they don't have to do so. A manager possesses formal authority over resources, budgets, schedules, or people, but not every situation calls for exercise of leadership skills. 


Role

Why Management Matters More Than Leadership

Why Leadership Is Less Critical

Payroll manager

Accuracy, compliance, deadlines, controls

Processes are highly standardized

Accounts payable supervisor

Transaction processing and auditability

Little need to create organizational change

Air traffic control shift supervisor

Strict adherence to procedures

Innovation can be undesirable during operations

Nuclear power plant operations manager

Safety and process discipline dominate

Consistency outweighs vision

Warehouse scheduling manager

Resource allocation and throughput optimization

Employees typically follow established procedures

Regulatory compliance manager

Monitoring, reporting, and enforcement

Persuasion plays a smaller role than compliance

Manufacturing line supervisor

Quality, efficiency, staffing

Limited need for strategic transformation


Conversely, not all leaders manage. A leader possesses influence, whether or not formal authority exists. The examples include leadership in a combat situation.


Role

Leadership Characteristics

Management Authority

Scientific thought leader

Shapes research agenda through expertise

Often has no line authority

Distinguished engineer

Influences technical direction through credibility

May manage no employees

Open-source software creator

Mobilizes contributors around a vision

Usually lacks formal authority

Social movement organizer

Creates commitment and purpose

Few formal management responsibilities

University professor

Influences students and colleagues

Typically manages little organizational infrastructure

Industry analyst

Influences strategic decisions across firms

No direct authority over followers

Religious leader of a voluntary group

Influence depends largely on trust and shared values

Limited formal managerial control


One classic formulation is that managers do things right; leaders do the right things


The terms “leader” and “manager,” like the terms “leadership” and “management,” often are used interchangeably, and probably should not be, as they are very different things.


Dimension

Management

Leadership

Primary Purpose

Create order, consistency, and predictability

Create change, adaptation, and movement

Core Question

"How do we execute efficiently?"

"Where should we go next?"

Focus

Processes, systems, resources

People, purpose, direction

Time Horizon

Short- to medium-term

Long-term

Key Activities

Planning, budgeting, organizing, staffing, controlling

Vision-setting, aligning, motivating, inspiring

Relationship to Change

Minimizes unnecessary variation

Initiates and guides change

Source of Authority

Formal position and organizational role

Influence, credibility, and followership

Success Measure

Efficiency, reliability, consistency

Commitment, adaptation, transformation

View of Risk

Reduce and manage risk

Accept calculated risk for future gains

Communication Style

Instructions, coordination, monitoring

Inspiration, persuasion, meaning-making

Primary Resource Managed

Tasks, budgets, schedules, assets

Human energy, attention, commitment

Organizational Outcome

Stability and operational effectiveness

Renewal and strategic effectiveness


The classic example is combat leadership in a small team and bureaucratic management of the whole army, navy or air force. In combat, leadership is not so much exercised by the leader as assented to by the followers. In other words, you might say leaders are made by their followers. 


Managers and executives, on the other hand, never are really made by their followers. They hold positions or offices that confer authority. Bureaucratic authority, the holding of an office, is not the same thing as leadership. 


With the caveat that the balance could well be different in a fast-moving Internet business compared to a factory, a classic statement might be that “the manager’s job is to plan, organize and coordinate. The leader’s job is to inspire and motivate.”


The degree of predictability and time frames often dictate when management is key and when leadership is more important. Highly-predictable scenarios do not require leadership. 


On the other hand, any institution that expects to last over multiple human lifetimes is going to rely on management rather than leadership, for the most part, as it is necessary to create stable structures over long periods of time.


AI ROI Metrics are Coming, Even if They are Essentially "Soft" Measures of Impact

We might as well be honest and predict that enterprises are going to develop all sorts of metrics that purportedly show the positive impact ...